import bz2
import datetime as dt
from datetime import datetime
import gzip
import io
import itertools
import os
import string
import struct
import tarfile
import zipfile

import numpy as np
import pytest

from pandas.errors import Pandas4Warning
import pandas.util._test_decorators as td

import pandas as pd
from pandas import CategoricalDtype
import pandas._testing as tm
from pandas.core.frame import (
    DataFrame,
    Series,
)

from pandas.io.parsers import read_csv
from pandas.io.stata import (
    CategoricalConversionWarning,
    InvalidColumnName,
    PossiblePrecisionLoss,
    StataMissingValue,
    StataReader,
    StataWriter,
    StataWriterUTF8,
    ValueLabelTypeMismatch,
    read_stata,
)


@pytest.fixture
def mixed_frame():
    return DataFrame(
        {
            "a": [1, 2, 3, 4],
            "b": [1.0, 3.0, 27.0, 81.0],
            "c": ["Atlanta", "Birmingham", "Cincinnati", "Detroit"],
        }
    )


@pytest.fixture
def parsed_114(datapath):
    dta14_114 = datapath("io", "data", "stata", "stata5_114.dta")
    parsed_114 = read_stata(dta14_114, convert_dates=True)
    parsed_114.index.name = "index"
    return parsed_114


class TestStata:
    def read_dta(self, file):
        # Legacy default reader configuration
        return read_stata(file, convert_dates=True)

    def read_csv(self, file):
        return read_csv(file, parse_dates=True)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_read_empty_dta(self, version, temp_file):
        empty_ds = DataFrame(columns=["unit"])
        # GH 7369, make sure can read a 0-obs dta file
        path = temp_file
        empty_ds.to_stata(path, write_index=False, version=version)
        empty_ds2 = read_stata(path)
        tm.assert_frame_equal(empty_ds, empty_ds2)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_read_empty_dta_with_dtypes(self, version, temp_file):
        # GH 46240
        # Fixing above bug revealed that types are not correctly preserved when
        # writing empty DataFrames
        empty_df_typed = DataFrame(
            {
                "i8": np.array([0], dtype=np.int8),
                "i16": np.array([0], dtype=np.int16),
                "i32": np.array([0], dtype=np.int32),
                "i64": np.array([0], dtype=np.int64),
                "u8": np.array([0], dtype=np.uint8),
                "u16": np.array([0], dtype=np.uint16),
                "u32": np.array([0], dtype=np.uint32),
                "u64": np.array([0], dtype=np.uint64),
                "f32": np.array([0], dtype=np.float32),
                "f64": np.array([0], dtype=np.float64),
            }
        )
        # GH 7369, make sure can read a 0-obs dta file
        path = temp_file
        empty_df_typed.to_stata(path, write_index=False, version=version)
        empty_reread = read_stata(path)

        expected = empty_df_typed
        # No uint# support. Downcast since values in range for int#
        expected["u8"] = expected["u8"].astype(np.int8)
        expected["u16"] = expected["u16"].astype(np.int16)
        expected["u32"] = expected["u32"].astype(np.int32)
        # No int64 supported at all. Downcast since values in range for int32
        expected["u64"] = expected["u64"].astype(np.int32)
        expected["i64"] = expected["i64"].astype(np.int32)

        tm.assert_frame_equal(expected, empty_reread)
        tm.assert_series_equal(expected.dtypes, empty_reread.dtypes)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_read_index_col_none(self, version, temp_file):
        df = DataFrame({"a": range(5), "b": ["b1", "b2", "b3", "b4", "b5"]})
        # GH 7369, make sure can read a 0-obs dta file
        path = temp_file
        df.to_stata(path, write_index=False, version=version)
        read_df = read_stata(path)

        assert isinstance(read_df.index, pd.RangeIndex)
        expected = df
        expected["a"] = expected["a"].astype(np.int32)
        tm.assert_frame_equal(read_df, expected, check_index_type=True)

    @pytest.mark.parametrize(
        "version", [102, 103, 104, 105, 108, 110, 111, 113, 114, 115, 117, 118, 119]
    )
    def test_read_dta1(self, version, datapath):
        file = datapath("io", "data", "stata", f"stata1_{version}.dta")
        parsed = self.read_dta(file)

        # Pandas uses np.nan as missing value.
        # Thus, all columns will be of type float, regardless of their name.
        expected = DataFrame(
            [(np.nan, np.nan, np.nan, np.nan, np.nan)],
            columns=["float_miss", "double_miss", "byte_miss", "int_miss", "long_miss"],
        )

        # this is an oddity as really the nan should be float64, but
        # the casting doesn't fail so need to match stata here
        expected["float_miss"] = expected["float_miss"].astype(np.float32)

        # Column names too long for older Stata formats
        if version <= 108:
            expected = expected.rename(
                columns={
                    "float_miss": "f_miss",
                    "double_miss": "d_miss",
                    "byte_miss": "b_miss",
                    "int_miss": "i_miss",
                    "long_miss": "l_miss",
                }
            )

        tm.assert_frame_equal(parsed, expected)

    def test_read_dta2(self, datapath):
        expected = DataFrame.from_records(
            [
                (
                    datetime(2006, 11, 19, 23, 13, 20),
                    1479596223000,
                    datetime(2010, 1, 20),
                    datetime(2010, 1, 8),
                    datetime(2010, 1, 1),
                    datetime(1974, 7, 1),
                    datetime(2010, 1, 1),
                    datetime(2010, 1, 1),
                ),
                (
                    datetime(1959, 12, 31, 20, 3, 20),
                    -1479590,
                    datetime(1953, 10, 2),
                    datetime(1948, 6, 10),
                    datetime(1955, 1, 1),
                    datetime(1955, 7, 1),
                    datetime(1955, 1, 1),
                    datetime(2, 1, 1),
                ),
                (pd.NaT, pd.NaT, pd.NaT, pd.NaT, pd.NaT, pd.NaT, pd.NaT, pd.NaT),
            ],
            columns=[
                "datetime_c",
                "datetime_big_c",
                "date",
                "weekly_date",
                "monthly_date",
                "quarterly_date",
                "half_yearly_date",
                "yearly_date",
            ],
        )
        # TODO(GH#55564): just pass M8[s] to the constructor
        expected["datetime_c"] = expected["datetime_c"].astype("M8[ms]")
        expected["date"] = expected["date"].astype("M8[s]")
        expected["weekly_date"] = expected["weekly_date"].astype("M8[s]")
        expected["monthly_date"] = expected["monthly_date"].astype("M8[s]")
        expected["quarterly_date"] = expected["quarterly_date"].astype("M8[s]")
        expected["half_yearly_date"] = expected["half_yearly_date"].astype("M8[s]")
        expected["yearly_date"] = expected["yearly_date"].astype("M8[s]")

        path1 = datapath("io", "data", "stata", "stata2_114.dta")
        path2 = datapath("io", "data", "stata", "stata2_115.dta")
        path3 = datapath("io", "data", "stata", "stata2_117.dta")

        msg = "Leaving in Stata Internal Format"
        with tm.assert_produces_warning(UserWarning, match=msg):
            parsed_114 = self.read_dta(path1)
        with tm.assert_produces_warning(UserWarning, match=msg):
            parsed_115 = self.read_dta(path2)
        with tm.assert_produces_warning(UserWarning, match=msg):
            parsed_117 = self.read_dta(path3)
            # FIXME: don't leave commented-out
            # 113 is buggy due to limits of date format support in Stata
            # parsed_113 = self.read_dta(
            # datapath("io", "data", "stata", "stata2_113.dta")
            # )

        # FIXME: don't leave commented-out
        # buggy test because of the NaT comparison on certain platforms
        # Format 113 test fails since it does not support tc and tC formats
        # tm.assert_frame_equal(parsed_113, expected)
        tm.assert_frame_equal(parsed_114, expected)
        tm.assert_frame_equal(parsed_115, expected)
        tm.assert_frame_equal(parsed_117, expected)

    @pytest.mark.parametrize(
        "file", ["stata3_113", "stata3_114", "stata3_115", "stata3_117"]
    )
    def test_read_dta3(self, file, datapath):
        file = datapath("io", "data", "stata", f"{file}.dta")
        parsed = self.read_dta(file)

        # match stata here
        expected = self.read_csv(datapath("io", "data", "stata", "stata3.csv"))
        expected = expected.astype(np.float32)
        expected["year"] = expected["year"].astype(np.int16)
        expected["quarter"] = expected["quarter"].astype(np.int8)

        tm.assert_frame_equal(parsed, expected)

    @pytest.mark.parametrize("version", [110, 111, 113, 114, 115, 117])
    def test_read_dta4(self, version, datapath):
        file = datapath("io", "data", "stata", f"stata4_{version}.dta")
        parsed = self.read_dta(file)

        expected = DataFrame.from_records(
            [
                ["one", "ten", "one", "one", "one"],
                ["two", "nine", "two", "two", "two"],
                ["three", "eight", "three", "three", "three"],
                ["four", "seven", 4, "four", "four"],
                ["five", "six", 5, np.nan, "five"],
                ["six", "five", 6, np.nan, "six"],
                ["seven", "four", 7, np.nan, "seven"],
                ["eight", "three", 8, np.nan, "eight"],
                ["nine", "two", 9, np.nan, "nine"],
                ["ten", "one", "ten", np.nan, "ten"],
            ],
            columns=[
                "fully_labeled",
                "fully_labeled2",
                "incompletely_labeled",
                "labeled_with_missings",
                "float_labelled",
            ],
        )

        # these are all categoricals
        for col in expected:
            orig = expected[col].copy()

            categories = np.asarray(expected["fully_labeled"][orig.notna()])
            if col == "incompletely_labeled":
                categories = orig

            cat = orig.astype("category")._values
            cat = cat.set_categories(categories, ordered=True)
            cat.categories.rename(None, inplace=True)

            expected[col] = cat

        # stata doesn't save .category metadata
        tm.assert_frame_equal(parsed, expected)

    @pytest.mark.parametrize("version", [102, 103, 104, 105, 108])
    def test_readold_dta4(self, version, datapath):
        # This test is the same as test_read_dta4 above except that the columns
        # had to be renamed to match the restrictions in older file format
        file = datapath("io", "data", "stata", f"stata4_{version}.dta")
        parsed = self.read_dta(file)

        expected = DataFrame.from_records(
            [
                ["one", "ten", "one", "one", "one"],
                ["two", "nine", "two", "two", "two"],
                ["three", "eight", "three", "three", "three"],
                ["four", "seven", 4, "four", "four"],
                ["five", "six", 5, np.nan, "five"],
                ["six", "five", 6, np.nan, "six"],
                ["seven", "four", 7, np.nan, "seven"],
                ["eight", "three", 8, np.nan, "eight"],
                ["nine", "two", 9, np.nan, "nine"],
                ["ten", "one", "ten", np.nan, "ten"],
            ],
            columns=[
                "fulllab",
                "fulllab2",
                "incmplab",
                "misslab",
                "floatlab",
            ],
        )

        # these are all categoricals
        for col in expected:
            orig = expected[col].copy()

            categories = np.asarray(expected["fulllab"][orig.notna()])
            if col == "incmplab":
                categories = orig

            cat = orig.astype("category")._values
            cat = cat.set_categories(categories, ordered=True)
            cat.categories.rename(None, inplace=True)

            expected[col] = cat

        # stata doesn't save .category metadata
        tm.assert_frame_equal(parsed, expected)

    # File containing strls
    @pytest.mark.parametrize(
        "file",
        [
            "stata12_117",
            "stata12_be_117",
            "stata12_118",
            "stata12_be_118",
            "stata12_119",
            "stata12_be_119",
        ],
    )
    def test_read_dta_strl(self, file, datapath):
        parsed = self.read_dta(datapath("io", "data", "stata", f"{file}.dta"))
        expected = DataFrame.from_records(
            [
                [1, "abc", "abcdefghi"],
                [3, "cba", "qwertywertyqwerty"],
                [93, "", "strl"],
            ],
            columns=["x", "y", "z"],
        )

        tm.assert_frame_equal(parsed, expected, check_dtype=False)

    # 117 is not included in this list as it uses ASCII strings
    @pytest.mark.parametrize(
        "file",
        [
            "stata14_118",
            "stata14_be_118",
            "stata14_119",
            "stata14_be_119",
        ],
    )
    def test_read_dta118_119(self, file, datapath):
        parsed_118 = self.read_dta(datapath("io", "data", "stata", f"{file}.dta"))
        parsed_118["Bytes"] = parsed_118["Bytes"].astype("O")
        expected = DataFrame.from_records(
            [
                ["Cat", "Bogota", "Bogotá", 1, 1.0, "option b Ünicode", 1.0],
                ["Dog", "Boston", "Uzunköprü", np.nan, np.nan, np.nan, np.nan],
                ["Plane", "Rome", "Tromsø", 0, 0.0, "option a", 0.0],
                ["Potato", "Tokyo", "Elâzığ", -4, 4.0, 4, 4],  # noqa: RUF001
                ["", "", "", 0, 0.3332999, "option a", 1 / 3.0],
            ],
            columns=[
                "Things",
                "Cities",
                "Unicode_Cities_Strl",
                "Ints",
                "Floats",
                "Bytes",
                "Longs",
            ],
        )
        expected["Floats"] = expected["Floats"].astype(np.float32)
        for col in parsed_118.columns:
            tm.assert_almost_equal(parsed_118[col], expected[col])

        with StataReader(datapath("io", "data", "stata", f"{file}.dta")) as rdr:
            vl = rdr.variable_labels()
            vl_expected = {
                "Unicode_Cities_Strl": "Here are some strls with Ünicode chars",
                "Longs": "long data",
                "Things": "Here are some things",
                "Bytes": "byte data",
                "Ints": "int data",
                "Cities": "Here are some cities",
                "Floats": "float data",
            }
            tm.assert_dict_equal(vl, vl_expected)

            assert rdr.data_label == "This is a  Ünicode data label"

    def test_read_write_dta5(self, temp_file):
        original = DataFrame(
            [(np.nan, np.nan, np.nan, np.nan, np.nan)],
            columns=["float_miss", "double_miss", "byte_miss", "int_miss", "long_miss"],
        )
        original.index.name = "index"

        path = temp_file
        original.to_stata(path, convert_dates=None)
        written_and_read_again = self.read_dta(path)

        expected = original
        expected.index = expected.index.astype(np.int32)
        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    def test_write_dta6(self, datapath, temp_file):
        original = self.read_csv(datapath("io", "data", "stata", "stata3.csv"))
        original.index.name = "index"
        original.index = original.index.astype(np.int32)
        original["year"] = original["year"].astype(np.int32)
        original["quarter"] = original["quarter"].astype(np.int32)

        path = temp_file
        original.to_stata(path, convert_dates=None)
        written_and_read_again = self.read_dta(path)
        tm.assert_frame_equal(
            written_and_read_again.set_index("index"),
            original,
            check_index_type=False,
        )

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_read_write_dta10(self, version, temp_file, using_infer_string):
        original = DataFrame(
            data=[["string", "object", 1, 1.1, np.datetime64("2003-12-25")]],
            columns=["string", "object", "integer", "floating", "datetime"],
        )
        original["object"] = Series(original["object"], dtype=object)
        original.index.name = "index"
        original.index = original.index.astype(np.int32)
        original["integer"] = original["integer"].astype(np.int32)

        path = temp_file
        original.to_stata(path, convert_dates={"datetime": "tc"}, version=version)
        written_and_read_again = self.read_dta(path)

        expected = original.copy()
        # "tc" convert_dates means we store in ms
        expected["datetime"] = expected["datetime"].astype("M8[ms]")
        if using_infer_string:
            expected["object"] = expected["object"].astype("str")

        tm.assert_frame_equal(
            written_and_read_again.set_index("index"),
            expected,
        )

    def test_stata_doc_examples(self, temp_file):
        path = temp_file
        df = DataFrame(
            np.random.default_rng(2).standard_normal((10, 2)), columns=list("AB")
        )
        df.to_stata(path)

    def test_write_preserves_original(self, temp_file):
        # 9795

        df = DataFrame(
            np.random.default_rng(2).standard_normal((5, 4)), columns=list("abcd")
        )
        df.loc[2, "a":"c"] = np.nan
        df_copy = df.copy()
        path = temp_file
        df.to_stata(path, write_index=False)
        tm.assert_frame_equal(df, df_copy)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_encoding(self, version, datapath, temp_file):
        # GH 4626, proper encoding handling
        raw = read_stata(datapath("io", "data", "stata", "stata1_encoding.dta"))
        encoded = read_stata(datapath("io", "data", "stata", "stata1_encoding.dta"))
        result = encoded.kreis1849[0]

        expected = raw.kreis1849[0]
        assert result == expected
        assert isinstance(result, str)

        path = temp_file
        encoded.to_stata(path, write_index=False, version=version)
        reread_encoded = read_stata(path)
        tm.assert_frame_equal(encoded, reread_encoded)

    def test_read_write_dta11(self, temp_file):
        original = DataFrame(
            [(1, 2, 3, 4)],
            columns=[
                "good",
                "b\u00e4d",
                "8number",
                "astringwithmorethan32characters______",
            ],
        )
        formatted = DataFrame(
            [(1, 2, 3, 4)],
            columns=["good", "b_d", "_8number", "astringwithmorethan32characters_"],
        )
        formatted.index.name = "index"
        formatted = formatted.astype(np.int32)

        path = temp_file
        msg = "Not all pandas column names were valid Stata variable names"
        with tm.assert_produces_warning(InvalidColumnName, match=msg):
            original.to_stata(path, convert_dates=None)

        written_and_read_again = self.read_dta(path)

        expected = formatted
        expected.index = expected.index.astype(np.int32)
        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_read_write_dta12(self, version, temp_file):
        original = DataFrame(
            [(1, 2, 3, 4, 5, 6)],
            columns=[
                "astringwithmorethan32characters_1",
                "astringwithmorethan32characters_2",
                "+",
                "-",
                "short",
                "delete",
            ],
        )
        formatted = DataFrame(
            [(1, 2, 3, 4, 5, 6)],
            columns=[
                "astringwithmorethan32characters_",
                "_0astringwithmorethan32character",
                "_",
                "_1_",
                "_short",
                "_delete",
            ],
        )
        formatted.index.name = "index"
        formatted = formatted.astype(np.int32)

        path = temp_file
        msg = "Not all pandas column names were valid Stata variable names"
        with tm.assert_produces_warning(InvalidColumnName, match=msg):
            original.to_stata(path, convert_dates=None, version=version)
            # should get a warning for that format.

        written_and_read_again = self.read_dta(path)

        expected = formatted
        expected.index = expected.index.astype(np.int32)
        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    def test_read_write_dta13(self, temp_file):
        s1 = Series(2**9, dtype=np.int16)
        s2 = Series(2**17, dtype=np.int32)
        s3 = Series(2**33, dtype=np.int64)
        original = DataFrame({"int16": s1, "int32": s2, "int64": s3})
        original.index.name = "index"

        formatted = original
        formatted["int64"] = formatted["int64"].astype(np.float64)

        path = temp_file
        original.to_stata(path)
        written_and_read_again = self.read_dta(path)

        expected = formatted
        expected.index = expected.index.astype(np.int32)
        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    @pytest.mark.parametrize(
        "file", ["stata5_113", "stata5_114", "stata5_115", "stata5_117"]
    )
    def test_read_write_reread_dta14(
        self, file, parsed_114, version, datapath, temp_file
    ):
        file = datapath("io", "data", "stata", f"{file}.dta")
        parsed = self.read_dta(file)
        parsed.index.name = "index"

        tm.assert_frame_equal(parsed_114, parsed)

        path = temp_file
        parsed_114.to_stata(path, convert_dates={"date_td": "td"}, version=version)
        written_and_read_again = self.read_dta(path)

        expected = parsed_114.copy()
        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    @pytest.mark.parametrize(
        "file", ["stata6_113", "stata6_114", "stata6_115", "stata6_117"]
    )
    def test_read_write_reread_dta15(self, file, datapath):
        expected = self.read_csv(datapath("io", "data", "stata", "stata6.csv"))
        expected["byte_"] = expected["byte_"].astype(np.int8)
        expected["int_"] = expected["int_"].astype(np.int16)
        expected["long_"] = expected["long_"].astype(np.int32)
        expected["float_"] = expected["float_"].astype(np.float32)
        expected["double_"] = expected["double_"].astype(np.float64)

        # TODO(GH#55564): directly cast to M8[s]
        arr = expected["date_td"].astype("Period[D]")._values.asfreq("s", how="S")
        expected["date_td"] = arr.view("M8[s]")

        file = datapath("io", "data", "stata", f"{file}.dta")
        parsed = self.read_dta(file)

        tm.assert_frame_equal(expected, parsed)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_timestamp_and_label(self, version, temp_file):
        original = DataFrame([(1,)], columns=["variable"])
        time_stamp = datetime(2000, 2, 29, 14, 21)
        data_label = "This is a data file."
        path = temp_file
        original.to_stata(
            path, time_stamp=time_stamp, data_label=data_label, version=version
        )

        with StataReader(path) as reader:
            assert reader.time_stamp == "29 Feb 2000 14:21"
            assert reader.data_label == data_label

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_invalid_timestamp(self, version, temp_file):
        original = DataFrame([(1,)], columns=["variable"])
        time_stamp = "01 Jan 2000, 00:00:00"
        path = temp_file
        msg = "time_stamp should be datetime type"
        with pytest.raises(ValueError, match=msg):
            original.to_stata(path, time_stamp=time_stamp, version=version)
        assert not os.path.isfile(path)

    def test_numeric_column_names(self, temp_file):
        original = DataFrame(np.reshape(np.arange(25.0), (5, 5)))
        original.index.name = "index"
        path = temp_file
        # should get a warning for that format.
        msg = "Not all pandas column names were valid Stata variable names"
        with tm.assert_produces_warning(InvalidColumnName, match=msg):
            original.to_stata(path)

        written_and_read_again = self.read_dta(path)

        written_and_read_again = written_and_read_again.set_index("index")
        columns = list(written_and_read_again.columns)
        convert_col_name = lambda x: int(x[1])
        written_and_read_again.columns = map(convert_col_name, columns)

        expected = original
        tm.assert_frame_equal(expected, written_and_read_again)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_nan_to_missing_value(self, version, temp_file):
        s1 = Series(np.arange(4.0), dtype=np.float32)
        s2 = Series(np.arange(4.0), dtype=np.float64)
        s1[::2] = np.nan
        s2[1::2] = np.nan
        original = DataFrame({"s1": s1, "s2": s2})
        original.index.name = "index"

        path = temp_file
        original.to_stata(path, version=version)
        written_and_read_again = self.read_dta(path)

        written_and_read_again = written_and_read_again.set_index("index")
        expected = original
        tm.assert_frame_equal(written_and_read_again, expected)

    def test_no_index(self, temp_file):
        columns = ["x", "y"]
        original = DataFrame(np.reshape(np.arange(10.0), (5, 2)), columns=columns)
        original.index.name = "index_not_written"
        path = temp_file
        original.to_stata(path, write_index=False)
        written_and_read_again = self.read_dta(path)
        with pytest.raises(KeyError, match=original.index.name):
            written_and_read_again["index_not_written"]

    def test_string_no_dates(self, temp_file):
        s1 = Series(["a", "A longer string"])
        s2 = Series([1.0, 2.0], dtype=np.float64)
        original = DataFrame({"s1": s1, "s2": s2})
        original.index.name = "index"
        path = temp_file
        original.to_stata(path)
        written_and_read_again = self.read_dta(path)

        expected = original
        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    def test_large_value_conversion(self, temp_file):
        s0 = Series([1, 99], dtype=np.int8)
        s1 = Series([1, 127], dtype=np.int8)
        s2 = Series([1, 2**15 - 1], dtype=np.int16)
        s3 = Series([1, 2**63 - 1], dtype=np.int64)
        original = DataFrame({"s0": s0, "s1": s1, "s2": s2, "s3": s3})
        original.index.name = "index"
        path = temp_file
        with tm.assert_produces_warning(PossiblePrecisionLoss, match="from int64 to"):
            original.to_stata(path)

        written_and_read_again = self.read_dta(path)

        modified = original
        modified["s1"] = Series(modified["s1"], dtype=np.int16)
        modified["s2"] = Series(modified["s2"], dtype=np.int32)
        modified["s3"] = Series(modified["s3"], dtype=np.float64)
        tm.assert_frame_equal(written_and_read_again.set_index("index"), modified)

    def test_dates_invalid_column(self, temp_file):
        original = DataFrame([datetime(2006, 11, 19, 23, 13, 20)])
        original.index.name = "index"
        path = temp_file
        msg = "Not all pandas column names were valid Stata variable names"
        with tm.assert_produces_warning(InvalidColumnName, match=msg):
            original.to_stata(path, convert_dates={0: "tc"})

        written_and_read_again = self.read_dta(path)

        expected = original.copy()
        expected.columns = ["_0"]
        expected.index = original.index.astype(np.int32)
        expected["_0"] = expected["_0"].astype("M8[ms]")
        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    def test_105(self, datapath):
        # Data obtained from:
        # http://go.worldbank.org/ZXY29PVJ21
        dpath = datapath("io", "data", "stata", "S4_EDUC1.dta")
        df = read_stata(dpath)
        df0 = [[1, 1, 3, -2], [2, 1, 2, -2], [4, 1, 1, -2]]
        df0 = DataFrame(df0)
        df0.columns = ["clustnum", "pri_schl", "psch_num", "psch_dis"]
        df0["clustnum"] = df0["clustnum"].astype(np.int16)
        df0["pri_schl"] = df0["pri_schl"].astype(np.int8)
        df0["psch_num"] = df0["psch_num"].astype(np.int8)
        df0["psch_dis"] = df0["psch_dis"].astype(np.float32)
        tm.assert_frame_equal(df.head(3), df0)

    def test_value_labels_old_format(self, datapath):
        # GH 19417
        #
        # Test that value_labels() returns an empty dict if the file format
        # predates supporting value labels.
        dpath = datapath("io", "data", "stata", "S4_EDUC1.dta")
        with StataReader(dpath) as reader:
            assert reader.value_labels() == {}

    def test_date_export_formats(self, temp_file):
        columns = ["tc", "td", "tw", "tm", "tq", "th", "ty"]
        conversions = {c: c for c in columns}
        data = [datetime(2006, 11, 20, 23, 13, 20)] * len(columns)
        original = DataFrame([data], columns=columns)
        original.index.name = "index"
        expected_values = [
            datetime(2006, 11, 20, 23, 13, 20),  # Time
            datetime(2006, 11, 20),  # Day
            datetime(2006, 11, 19),  # Week
            datetime(2006, 11, 1),  # Month
            datetime(2006, 10, 1),  # Quarter year
            datetime(2006, 7, 1),  # Half year
            datetime(2006, 1, 1),
        ]  # Year

        expected = DataFrame(
            [expected_values],
            index=pd.Index([0], dtype=np.int32, name="index"),
            columns=columns,
            dtype="M8[s]",
        )
        expected["tc"] = expected["tc"].astype("M8[ms]")

        path = temp_file
        original.to_stata(path, convert_dates=conversions)
        written_and_read_again = self.read_dta(path)

        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    def test_write_missing_strings(self, temp_file):
        original = DataFrame([["1"], [None]], columns=["foo"])

        expected = DataFrame(
            [["1"], [""]],
            index=pd.RangeIndex(2, name="index"),
            columns=["foo"],
        )

        path = temp_file
        original.to_stata(path)
        written_and_read_again = self.read_dta(path)

        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    @pytest.mark.parametrize("byteorder", [">", "<"])
    def test_bool_uint(self, byteorder, version, temp_file):
        s0 = Series([0, 1, True], dtype=np.bool_)
        s1 = Series([0, 1, 100], dtype=np.uint8)
        s2 = Series([0, 1, 255], dtype=np.uint8)
        s3 = Series([0, 1, 2**15 - 100], dtype=np.uint16)
        s4 = Series([0, 1, 2**16 - 1], dtype=np.uint16)
        s5 = Series([0, 1, 2**31 - 100], dtype=np.uint32)
        s6 = Series([0, 1, 2**32 - 1], dtype=np.uint32)

        original = DataFrame(
            {"s0": s0, "s1": s1, "s2": s2, "s3": s3, "s4": s4, "s5": s5, "s6": s6}
        )
        original.index.name = "index"

        path = temp_file
        original.to_stata(path, byteorder=byteorder, version=version)
        written_and_read_again = self.read_dta(path)

        written_and_read_again = written_and_read_again.set_index("index")

        expected = original
        expected_types = (
            np.int8,
            np.int8,
            np.int16,
            np.int16,
            np.int32,
            np.int32,
            np.float64,
        )
        for c, t in zip(expected.columns, expected_types):
            expected[c] = expected[c].astype(t)

        tm.assert_frame_equal(written_and_read_again, expected)

    def test_variable_labels(self, datapath):
        with StataReader(datapath("io", "data", "stata", "stata7_115.dta")) as rdr:
            sr_115 = rdr.variable_labels()
        with StataReader(datapath("io", "data", "stata", "stata7_117.dta")) as rdr:
            sr_117 = rdr.variable_labels()
        keys = ("var1", "var2", "var3")
        labels = ("label1", "label2", "label3")
        for k, v in sr_115.items():
            assert k in sr_117
            assert v == sr_117[k]
            assert k in keys
            assert v in labels

    def test_minimal_size_col(self, temp_file):
        str_lens = (1, 100, 244)
        s = {}
        for str_len in str_lens:
            s["s" + str(str_len)] = Series(
                ["a" * str_len, "b" * str_len, "c" * str_len]
            )
        original = DataFrame(s)
        path = temp_file
        original.to_stata(path, write_index=False)

        with StataReader(path) as sr:
            sr._ensure_open()  # The `_*list` variables are initialized here
            for variable, fmt, typ in zip(sr._varlist, sr._fmtlist, sr._typlist):
                assert int(variable[1:]) == int(fmt[1:-1])
                assert int(variable[1:]) == typ

    def test_excessively_long_string(self, temp_file):
        str_lens = (1, 244, 500)
        s = {}
        for str_len in str_lens:
            s["s" + str(str_len)] = Series(
                ["a" * str_len, "b" * str_len, "c" * str_len]
            )
        original = DataFrame(s)
        msg = (
            r"Fixed width strings in Stata \.dta files are limited to 244 "
            r"\(or fewer\)\ncharacters\.  Column 's500' does not satisfy "
            r"this restriction\. Use the\n'version=117' parameter to write "
            r"the newer \(Stata 13 and later\) format\."
        )
        with pytest.raises(ValueError, match=msg):
            path = temp_file
            original.to_stata(path)

    def test_missing_value_generator(self, temp_file):
        types = ("b", "h", "l")
        df = DataFrame([[0.0]], columns=["float_"])
        path = temp_file
        df.to_stata(path)
        with StataReader(path) as rdr:
            valid_range = rdr.VALID_RANGE
        expected_values = ["." + chr(97 + i) for i in range(26)]
        expected_values.insert(0, ".")
        for t in types:
            offset = valid_range[t][1]
            for i in range(27):
                val = StataMissingValue(offset + 1 + i)
                assert val.string == expected_values[i]

        # Test extremes for floats
        val = StataMissingValue(struct.unpack("<f", b"\x00\x00\x00\x7f")[0])
        assert val.string == "."
        val = StataMissingValue(struct.unpack("<f", b"\x00\xd0\x00\x7f")[0])
        assert val.string == ".z"

        # Test extremes for floats
        val = StataMissingValue(
            struct.unpack("<d", b"\x00\x00\x00\x00\x00\x00\xe0\x7f")[0]
        )
        assert val.string == "."
        val = StataMissingValue(
            struct.unpack("<d", b"\x00\x00\x00\x00\x00\x1a\xe0\x7f")[0]
        )
        assert val.string == ".z"

    @pytest.mark.parametrize("version", [113, 115, 117])
    def test_missing_value_conversion(self, version, datapath):
        columns = ["int8_", "int16_", "int32_", "float32_", "float64_"]
        smv = StataMissingValue(101)
        keys = sorted(smv.MISSING_VALUES.keys())
        data = []
        for i in range(27):
            row = [StataMissingValue(keys[i + (j * 27)]) for j in range(5)]
            data.append(row)
        expected = DataFrame(data, columns=columns)

        parsed = read_stata(
            datapath("io", "data", "stata", f"stata8_{version}.dta"),
            convert_missing=True,
        )
        tm.assert_frame_equal(parsed, expected)

    @pytest.mark.parametrize("version", [104, 105, 108, 110, 111])
    def test_missing_value_conversion_compat(self, version, datapath):
        columns = ["int8_", "int16_", "int32_", "float32_", "float64_"]
        smv = StataMissingValue(101)
        keys = sorted(smv.MISSING_VALUES.keys())
        data = []
        row = [StataMissingValue(keys[j * 27]) for j in range(5)]
        data.append(row)
        expected = DataFrame(data, columns=columns)

        parsed = read_stata(
            datapath("io", "data", "stata", f"stata8_{version}.dta"),
            convert_missing=True,
        )
        tm.assert_frame_equal(parsed, expected)

    # The byte type was not supported prior to the 104 format
    @pytest.mark.parametrize("version", [102, 103])
    def test_missing_value_conversion_compat_nobyte(self, version, datapath):
        columns = ["int8_", "int16_", "int32_", "float32_", "float64_"]
        smv = StataMissingValue(101)
        keys = sorted(smv.MISSING_VALUES.keys())
        data = []
        row = [StataMissingValue(keys[j * 27]) for j in [1, 1, 2, 3, 4]]
        data.append(row)
        expected = DataFrame(data, columns=columns)

        parsed = read_stata(
            datapath("io", "data", "stata", f"stata8_{version}.dta"),
            convert_missing=True,
        )
        tm.assert_frame_equal(parsed, expected)

    def test_big_dates(self, datapath, temp_file):
        yr = [1960, 2000, 9999, 100, 2262, 1677]
        mo = [1, 1, 12, 1, 4, 9]
        dd = [1, 1, 31, 1, 22, 23]
        hr = [0, 0, 23, 0, 0, 0]
        mm = [0, 0, 59, 0, 0, 0]
        ss = [0, 0, 59, 0, 0, 0]
        expected = []
        for year, month, day, hour, minute, second in zip(yr, mo, dd, hr, mm, ss):
            row = []
            for j in range(7):
                if j == 0:
                    row.append(datetime(year, month, day, hour, minute, second))
                elif j == 6:
                    row.append(datetime(year, 1, 1))
                else:
                    row.append(datetime(year, month, day))
            expected.append(row)
        expected.append([pd.NaT] * 7)
        columns = [
            "date_tc",
            "date_td",
            "date_tw",
            "date_tm",
            "date_tq",
            "date_th",
            "date_ty",
        ]

        # Fixes for weekly, quarterly,half,year
        expected[2][2] = datetime(9999, 12, 24)
        expected[2][3] = datetime(9999, 12, 1)
        expected[2][4] = datetime(9999, 10, 1)
        expected[2][5] = datetime(9999, 7, 1)
        expected[4][2] = datetime(2262, 4, 16)
        expected[4][3] = expected[4][4] = datetime(2262, 4, 1)
        expected[4][5] = expected[4][6] = datetime(2262, 1, 1)
        expected[5][2] = expected[5][3] = expected[5][4] = datetime(1677, 10, 1)
        expected[5][5] = expected[5][6] = datetime(1678, 1, 1)

        expected = DataFrame(expected, columns=columns, dtype=object)
        expected["date_tc"] = expected["date_tc"].astype("M8[ms]")
        expected["date_td"] = expected["date_td"].astype("M8[s]")
        expected["date_tm"] = expected["date_tm"].astype("M8[s]")
        expected["date_tw"] = expected["date_tw"].astype("M8[s]")
        expected["date_tq"] = expected["date_tq"].astype("M8[s]")
        expected["date_th"] = expected["date_th"].astype("M8[s]")
        expected["date_ty"] = expected["date_ty"].astype("M8[s]")

        parsed_115 = read_stata(datapath("io", "data", "stata", "stata9_115.dta"))
        parsed_117 = read_stata(datapath("io", "data", "stata", "stata9_117.dta"))
        tm.assert_frame_equal(expected, parsed_115)
        tm.assert_frame_equal(expected, parsed_117)

        date_conversion = {c: c[-2:] for c in columns}
        # {c : c[-2:] for c in columns}
        path = temp_file
        expected.index.name = "index"
        msg = (
            "Converting object-dtype columns of datetimes to datetime64 "
            "when writing to stata is deprecated"
        )
        exp_object = expected.astype(object)
        with tm.assert_produces_warning(Pandas4Warning, match=msg):
            exp_object.to_stata(path, convert_dates=date_conversion)
        written_and_read_again = self.read_dta(path)

        tm.assert_frame_equal(
            written_and_read_again.set_index("index"),
            expected.set_index(expected.index.astype(np.int32)),
        )

    def test_dtype_conversion(self, datapath):
        expected = self.read_csv(datapath("io", "data", "stata", "stata6.csv"))
        expected["byte_"] = expected["byte_"].astype(np.int8)
        expected["int_"] = expected["int_"].astype(np.int16)
        expected["long_"] = expected["long_"].astype(np.int32)
        expected["float_"] = expected["float_"].astype(np.float32)
        expected["double_"] = expected["double_"].astype(np.float64)
        expected["date_td"] = expected["date_td"].astype("M8[s]")

        no_conversion = read_stata(
            datapath("io", "data", "stata", "stata6_117.dta"), convert_dates=True
        )
        tm.assert_frame_equal(expected, no_conversion)

        conversion = read_stata(
            datapath("io", "data", "stata", "stata6_117.dta"),
            convert_dates=True,
            preserve_dtypes=False,
        )

        # read_csv types are the same
        expected2 = self.read_csv(datapath("io", "data", "stata", "stata6.csv"))
        expected2["date_td"] = expected["date_td"]

        tm.assert_frame_equal(expected2, conversion)

    def test_drop_column(self, datapath):
        expected = self.read_csv(datapath("io", "data", "stata", "stata6.csv"))
        expected["byte_"] = expected["byte_"].astype(np.int8)
        expected["int_"] = expected["int_"].astype(np.int16)
        expected["long_"] = expected["long_"].astype(np.int32)
        expected["float_"] = expected["float_"].astype(np.float32)
        expected["double_"] = expected["double_"].astype(np.float64)
        expected["date_td"] = expected["date_td"].apply(
            datetime.strptime, args=("%Y-%m-%d",)
        )

        columns = ["byte_", "int_", "long_"]
        expected = expected[columns]
        dropped = read_stata(
            datapath("io", "data", "stata", "stata6_117.dta"),
            convert_dates=True,
            columns=columns,
        )

        tm.assert_frame_equal(expected, dropped)

        # See PR 10757
        columns = ["int_", "long_", "byte_"]
        expected = expected[columns]
        reordered = read_stata(
            datapath("io", "data", "stata", "stata6_117.dta"),
            convert_dates=True,
            columns=columns,
        )
        tm.assert_frame_equal(expected, reordered)

        msg = "columns contains duplicate entries"
        with pytest.raises(ValueError, match=msg):
            read_stata(
                datapath("io", "data", "stata", "stata6_117.dta"),
                convert_dates=True,
                columns=["byte_", "byte_"],
            )

        msg = "The following columns were not found in the Stata data set: not_found"
        with pytest.raises(ValueError, match=msg):
            read_stata(
                datapath("io", "data", "stata", "stata6_117.dta"),
                convert_dates=True,
                columns=["byte_", "int_", "long_", "not_found"],
            )

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    @pytest.mark.filterwarnings(
        "ignore:\\nStata value:pandas.io.stata.ValueLabelTypeMismatch"
    )
    def test_categorical_writing(self, version, temp_file):
        original = DataFrame.from_records(
            [
                ["one", "ten", "one", "one", "one", 1],
                ["two", "nine", "two", "two", "two", 2],
                ["three", "eight", "three", "three", "three", 3],
                ["four", "seven", 4, "four", "four", 4],
                ["five", "six", 5, np.nan, "five", 5],
                ["six", "five", 6, np.nan, "six", 6],
                ["seven", "four", 7, np.nan, "seven", 7],
                ["eight", "three", 8, np.nan, "eight", 8],
                ["nine", "two", 9, np.nan, "nine", 9],
                ["ten", "one", "ten", np.nan, "ten", 10],
            ],
            columns=[
                "fully_labeled",
                "fully_labeled2",
                "incompletely_labeled",
                "labeled_with_missings",
                "float_labelled",
                "unlabeled",
            ],
        )
        path = temp_file
        original.astype("category").to_stata(path, version=version)
        written_and_read_again = self.read_dta(path)

        res = written_and_read_again.set_index("index")

        expected = original
        expected.index = expected.index.set_names("index")

        expected["incompletely_labeled"] = expected["incompletely_labeled"].apply(str)
        expected["unlabeled"] = expected["unlabeled"].apply(str)
        for col in expected:
            orig = expected[col]

            cat = orig.astype("category")._values
            cat = cat.as_ordered()
            if col == "unlabeled":
                cat = cat.set_categories(orig, ordered=True)

            cat.categories.rename(None, inplace=True)

            expected[col] = cat

        tm.assert_frame_equal(res, expected)

    def test_categorical_warnings_and_errors(self, temp_file):
        # Warning for non-string labels
        original = DataFrame.from_records(
            [["a"], ["b"], ["c"], ["d"], [1]], columns=["Too_long"]
        ).astype("category")

        msg = "data file created has not lost information due to duplicate labels"
        with tm.assert_produces_warning(ValueLabelTypeMismatch, match=msg):
            original.to_stata(temp_file)
            # should get a warning for mixed content

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_categorical_with_stata_missing_values(self, version, temp_file):
        values = [["a" + str(i)] for i in range(120)]
        values.append([np.nan])
        original = DataFrame.from_records(values, columns=["many_labels"])
        original = pd.concat(
            [original[col].astype("category") for col in original], axis=1
        )
        original.index.name = "index"
        path = temp_file
        original.to_stata(path, version=version)
        written_and_read_again = self.read_dta(path)

        res = written_and_read_again.set_index("index")

        expected = original
        for col in expected:
            cat = expected[col]._values
            new_cats = cat.remove_unused_categories().categories
            cat = cat.set_categories(new_cats, ordered=True)
            expected[col] = cat
        tm.assert_frame_equal(res, expected)

    @pytest.mark.parametrize("file", ["stata10_115", "stata10_117"])
    def test_categorical_order(self, file, datapath):
        # Directly construct using expected codes
        # Format is is_cat, col_name, labels (in order), underlying data
        expected = [
            (True, "ordered", ["a", "b", "c", "d", "e"], np.arange(5)),
            (True, "reverse", ["a", "b", "c", "d", "e"], np.arange(5)[::-1]),
            (True, "noorder", ["a", "b", "c", "d", "e"], np.array([2, 1, 4, 0, 3])),
            (True, "floating", ["a", "b", "c", "d", "e"], np.arange(0, 5)),
            (True, "float_missing", ["a", "d", "e"], np.array([0, 1, 2, -1, -1])),
            (False, "nolabel", [1.0, 2.0, 3.0, 4.0, 5.0], np.arange(5)),
            (True, "int32_mixed", ["d", 2, "e", "b", "a"], np.arange(5)),
        ]
        cols = []
        for is_cat, col, labels, codes in expected:
            if is_cat:
                cols.append(
                    (col, pd.Categorical.from_codes(codes, labels, ordered=True))
                )
            else:
                cols.append((col, Series(labels, dtype=np.float32)))
        expected = DataFrame.from_dict(dict(cols))

        # Read with and with out categoricals, ensure order is identical
        file = datapath("io", "data", "stata", f"{file}.dta")
        parsed = read_stata(file)
        tm.assert_frame_equal(expected, parsed)

        # Check identity of codes
        for col in expected:
            if isinstance(expected[col].dtype, CategoricalDtype):
                tm.assert_series_equal(expected[col].cat.codes, parsed[col].cat.codes)
                tm.assert_index_equal(
                    expected[col].cat.categories, parsed[col].cat.categories
                )

    @pytest.mark.parametrize("file", ["stata11_115", "stata11_117"])
    def test_categorical_sorting(self, file, datapath):
        parsed = read_stata(datapath("io", "data", "stata", f"{file}.dta"))

        # Sort based on codes, not strings
        parsed = parsed.sort_values("srh", na_position="first")

        # Don't sort index
        parsed.index = pd.RangeIndex(len(parsed))
        codes = [-1, -1, 0, 1, 1, 1, 2, 2, 3, 4]
        categories = ["Poor", "Fair", "Good", "Very good", "Excellent"]
        cat = pd.Categorical.from_codes(
            codes=codes, categories=categories, ordered=True
        )
        expected = Series(cat, name="srh")
        tm.assert_series_equal(expected, parsed["srh"])

    @pytest.mark.parametrize("file", ["stata10_115", "stata10_117"])
    def test_categorical_ordering(self, file, datapath):
        file = datapath("io", "data", "stata", f"{file}.dta")
        parsed = read_stata(file)

        parsed_unordered = read_stata(file, order_categoricals=False)
        for col in parsed:
            if not isinstance(parsed[col].dtype, CategoricalDtype):
                continue
            assert parsed[col].cat.ordered
            assert not parsed_unordered[col].cat.ordered

    @pytest.mark.filterwarnings("ignore::UserWarning")
    @pytest.mark.parametrize(
        "file",
        [
            "stata1_117",
            "stata2_117",
            "stata3_117",
            "stata4_117",
            "stata5_117",
            "stata6_117",
            "stata7_117",
            "stata8_117",
            "stata9_117",
            "stata10_117",
            "stata11_117",
        ],
    )
    @pytest.mark.parametrize("chunksize", [1, 2])
    @pytest.mark.parametrize("convert_categoricals", [False, True])
    @pytest.mark.parametrize("convert_dates", [False, True])
    def test_read_chunks_117(
        self, file, chunksize, convert_categoricals, convert_dates, datapath
    ):
        fname = datapath("io", "data", "stata", f"{file}.dta")

        parsed = read_stata(
            fname,
            convert_categoricals=convert_categoricals,
            convert_dates=convert_dates,
        )
        with read_stata(
            fname,
            iterator=True,
            convert_categoricals=convert_categoricals,
            convert_dates=convert_dates,
        ) as itr:
            pos = 0
            for j in range(5):
                try:
                    chunk = itr.read(chunksize)
                except StopIteration:
                    break
                from_frame = parsed.iloc[pos : pos + chunksize, :].copy()
                from_frame = self._convert_categorical(from_frame)
                tm.assert_frame_equal(
                    from_frame,
                    chunk,
                    check_dtype=False,
                )
                pos += chunksize

    @staticmethod
    def _convert_categorical(from_frame: DataFrame) -> DataFrame:
        """
        Emulate the categorical casting behavior we expect from roundtripping.
        """
        for col in from_frame:
            ser = from_frame[col]
            if isinstance(ser.dtype, CategoricalDtype):
                cat = ser._values.remove_unused_categories()
                if cat.categories.dtype == object:
                    categories = pd.Index._with_infer(cat.categories._values)
                    cat = cat.set_categories(categories)
                elif cat.categories.dtype == "string" and len(cat.categories) == 0:
                    # if the read categories are empty, it comes back as object dtype
                    categories = cat.categories.astype(object)
                    cat = cat.set_categories(categories)
                from_frame[col] = cat
        return from_frame

    def test_iterator(self, datapath):
        fname = datapath("io", "data", "stata", "stata12_117.dta")

        parsed = read_stata(fname)
        expected = parsed.iloc[0:5, :]

        with read_stata(fname, iterator=True) as itr:
            chunk = itr.read(5)
            tm.assert_frame_equal(expected, chunk)

        with read_stata(fname, chunksize=5) as itr:
            chunk = next(itr)
            tm.assert_frame_equal(expected, chunk)

        with read_stata(fname, iterator=True) as itr:
            chunk = itr.get_chunk(5)
            tm.assert_frame_equal(expected, chunk)

        with read_stata(fname, chunksize=5) as itr:
            chunk = itr.get_chunk()
            tm.assert_frame_equal(expected, chunk)

        # GH12153
        with read_stata(fname, chunksize=4) as itr:
            from_chunks = pd.concat(itr)
        tm.assert_frame_equal(parsed, from_chunks)

    @pytest.mark.filterwarnings("ignore::UserWarning")
    @pytest.mark.parametrize(
        "file",
        [
            "stata2_115",
            "stata3_115",
            "stata4_115",
            "stata5_115",
            "stata6_115",
            "stata7_115",
            "stata8_115",
            "stata9_115",
            "stata10_115",
            "stata11_115",
        ],
    )
    @pytest.mark.parametrize("chunksize", [1, 2])
    @pytest.mark.parametrize("convert_categoricals", [False, True])
    @pytest.mark.parametrize("convert_dates", [False, True])
    def test_read_chunks_115(
        self, file, chunksize, convert_categoricals, convert_dates, datapath
    ):
        fname = datapath("io", "data", "stata", f"{file}.dta")

        # Read the whole file
        parsed = read_stata(
            fname,
            convert_categoricals=convert_categoricals,
            convert_dates=convert_dates,
        )

        # Compare to what we get when reading by chunk
        with read_stata(
            fname,
            iterator=True,
            convert_dates=convert_dates,
            convert_categoricals=convert_categoricals,
        ) as itr:
            pos = 0
            for j in range(5):
                try:
                    chunk = itr.read(chunksize)
                except StopIteration:
                    break
                from_frame = parsed.iloc[pos : pos + chunksize, :].copy()
                from_frame = self._convert_categorical(from_frame)
                tm.assert_frame_equal(
                    from_frame,
                    chunk,
                    check_dtype=False,
                )
                pos += chunksize

    def test_read_chunks_columns(self, datapath):
        fname = datapath("io", "data", "stata", "stata3_117.dta")
        columns = ["quarter", "cpi", "m1"]
        chunksize = 2

        parsed = read_stata(fname, columns=columns)
        with read_stata(fname, iterator=True) as itr:
            pos = 0
            for j in range(5):
                chunk = itr.read(chunksize, columns=columns)
                if chunk is None:
                    break
                from_frame = parsed.iloc[pos : pos + chunksize, :]
                tm.assert_frame_equal(from_frame, chunk, check_dtype=False)
                pos += chunksize

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_write_variable_labels(self, version, mixed_frame, temp_file):
        # GH 13631, add support for writing variable labels
        mixed_frame.index.name = "index"
        variable_labels = {"a": "City Rank", "b": "City Exponent", "c": "City"}
        path = temp_file
        mixed_frame.to_stata(path, variable_labels=variable_labels, version=version)
        with StataReader(path) as sr:
            read_labels = sr.variable_labels()
        expected_labels = {
            "index": "",
            "a": "City Rank",
            "b": "City Exponent",
            "c": "City",
        }
        assert read_labels == expected_labels

        variable_labels["index"] = "The Index"
        path = temp_file
        mixed_frame.to_stata(path, variable_labels=variable_labels, version=version)
        with StataReader(path) as sr:
            read_labels = sr.variable_labels()
        assert read_labels == variable_labels

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_invalid_variable_labels(self, version, mixed_frame, temp_file):
        mixed_frame.index.name = "index"
        variable_labels = {"a": "very long" * 10, "b": "City Exponent", "c": "City"}
        path = temp_file
        msg = "Variable labels must be 80 characters or fewer"
        with pytest.raises(ValueError, match=msg):
            mixed_frame.to_stata(path, variable_labels=variable_labels, version=version)

    @pytest.mark.parametrize("version", [114, 117])
    def test_invalid_variable_label_encoding(self, version, mixed_frame, temp_file):
        mixed_frame.index.name = "index"
        variable_labels = {"a": "very long" * 10, "b": "City Exponent", "c": "City"}
        variable_labels["a"] = "invalid character Œ"
        path = temp_file
        with pytest.raises(
            ValueError, match="Variable labels must contain only characters"
        ):
            mixed_frame.to_stata(path, variable_labels=variable_labels, version=version)

    def test_write_variable_label_errors(self, mixed_frame, temp_file):
        values = ["\u03a1", "\u0391", "\u039d", "\u0394", "\u0391", "\u03a3"]

        variable_labels_utf8 = {
            "a": "City Rank",
            "b": "City Exponent",
            "c": "".join(values),
        }

        msg = (
            "Variable labels must contain only characters that can be "
            "encoded in Latin-1"
        )
        with pytest.raises(ValueError, match=msg):
            path = temp_file
            mixed_frame.to_stata(path, variable_labels=variable_labels_utf8)

        variable_labels_long = {
            "a": "City Rank",
            "b": "City Exponent",
            "c": "A very, very, very long variable label "
            "that is too long for Stata which means "
            "that it has more than 80 characters",
        }

        msg = "Variable labels must be 80 characters or fewer"
        with pytest.raises(ValueError, match=msg):
            path = temp_file
            mixed_frame.to_stata(path, variable_labels=variable_labels_long)

    def test_default_date_conversion(self, temp_file):
        # GH 12259
        dates = [
            dt.datetime(1999, 12, 31, 12, 12, 12, 12000),
            dt.datetime(2012, 12, 21, 12, 21, 12, 21000),
            dt.datetime(1776, 7, 4, 7, 4, 7, 4000),
        ]
        original = DataFrame(
            {
                "nums": [1.0, 2.0, 3.0],
                "strs": ["apple", "banana", "cherry"],
                "dates": dates,
            }
        )

        expected = original[:]
        # "tc" for convert_dates below stores with "ms" resolution
        expected["dates"] = expected["dates"].astype("M8[ms]")

        path = temp_file
        original.to_stata(path, write_index=False)
        reread = read_stata(path, convert_dates=True)
        tm.assert_frame_equal(expected, reread)

        original.to_stata(path, write_index=False, convert_dates={"dates": "tc"})
        direct = read_stata(path, convert_dates=True)
        tm.assert_frame_equal(reread, direct)

        dates_idx = original.columns.tolist().index("dates")
        original.to_stata(path, write_index=False, convert_dates={dates_idx: "tc"})
        direct = read_stata(path, convert_dates=True)
        tm.assert_frame_equal(reread, direct)

    def test_unsupported_type(self, temp_file):
        original = DataFrame({"a": [1 + 2j, 2 + 4j]})

        msg = "Data type complex128 not supported"
        with pytest.raises(NotImplementedError, match=msg):
            path = temp_file
            original.to_stata(path)

    def test_unsupported_datetype(self, temp_file):
        dates = [
            dt.datetime(1999, 12, 31, 12, 12, 12, 12000),
            dt.datetime(2012, 12, 21, 12, 21, 12, 21000),
            dt.datetime(1776, 7, 4, 7, 4, 7, 4000),
        ]
        original = DataFrame(
            {
                "nums": [1.0, 2.0, 3.0],
                "strs": ["apple", "banana", "cherry"],
                "dates": dates,
            }
        )

        msg = "Format %tC not implemented"
        with pytest.raises(NotImplementedError, match=msg):
            path = temp_file
            original.to_stata(path, convert_dates={"dates": "tC"})

        dates = pd.date_range("1-1-1990", periods=3, tz="Asia/Hong_Kong")
        original = DataFrame(
            {
                "nums": [1.0, 2.0, 3.0],
                "strs": ["apple", "banana", "cherry"],
                "dates": dates,
            }
        )
        with pytest.raises(NotImplementedError, match="Data type datetime64"):
            path = temp_file
            original.to_stata(path)

    def test_repeated_column_labels(self, datapath):
        # GH 13923, 25772
        msg = """
Value labels for column ethnicsn are not unique. These cannot be converted to
pandas categoricals.

Either read the file with `convert_categoricals` set to False or use the
low level interface in `StataReader` to separately read the values and the
value_labels.

The repeated labels are:\n-+\nwolof
"""
        with pytest.raises(ValueError, match=msg):
            read_stata(
                datapath("io", "data", "stata", "stata15.dta"),
                convert_categoricals=True,
            )

    def test_stata_111(self, datapath):
        # 111 is an old version but still used by current versions of
        # SAS when exporting to Stata format. We do not know of any
        # on-line documentation for this version.
        df = read_stata(datapath("io", "data", "stata", "stata7_111.dta"))
        original = DataFrame(
            {
                "y": [1, 1, 1, 1, 1, 0, 0, np.nan, 0, 0],
                "x": [1, 2, 1, 3, np.nan, 4, 3, 5, 1, 6],
                "w": [2, np.nan, 5, 2, 4, 4, 3, 1, 2, 3],
                "z": ["a", "b", "c", "d", "e", "", "g", "h", "i", "j"],
            }
        )
        original = original[["y", "x", "w", "z"]]
        tm.assert_frame_equal(original, df)

    def test_out_of_range_double(self, temp_file):
        # GH 14618
        df = DataFrame(
            {
                "ColumnOk": [0.0, np.finfo(np.double).eps, 4.49423283715579e307],
                "ColumnTooBig": [0.0, np.finfo(np.double).eps, np.finfo(np.double).max],
            }
        )
        msg = (
            r"Column ColumnTooBig has a maximum value \(.+\) outside the range "
            r"supported by Stata \(.+\)"
        )
        with pytest.raises(ValueError, match=msg):
            path = temp_file
            df.to_stata(path)

    def test_out_of_range_float(self, temp_file):
        original = DataFrame(
            {
                "ColumnOk": [
                    0.0,
                    np.finfo(np.float32).eps,
                    np.finfo(np.float32).max / 10.0,
                ],
                "ColumnTooBig": [
                    0.0,
                    np.finfo(np.float32).eps,
                    np.finfo(np.float32).max,
                ],
            }
        )
        original.index.name = "index"
        for col in original:
            original[col] = original[col].astype(np.float32)

        path = temp_file
        original.to_stata(path)
        reread = read_stata(path)

        original["ColumnTooBig"] = original["ColumnTooBig"].astype(np.float64)
        expected = original
        tm.assert_frame_equal(reread.set_index("index"), expected)

    @pytest.mark.parametrize("infval", [np.inf, -np.inf])
    def test_inf(self, infval, temp_file):
        # GH 45350
        df = DataFrame({"WithoutInf": [0.0, 1.0], "WithInf": [2.0, infval]})
        msg = (
            "Column WithInf contains infinity or -infinity"
            "which is outside the range supported by Stata."
        )
        with pytest.raises(ValueError, match=msg):
            path = temp_file
            df.to_stata(path)

    def test_path_pathlib(self):
        df = DataFrame(
            1.1 * np.arange(120).reshape((30, 4)),
            columns=pd.Index(list("ABCD")),
            index=pd.Index([f"i-{i}" for i in range(30)]),
        )
        df.index.name = "index"
        reader = lambda x: read_stata(x).set_index("index")
        result = tm.round_trip_pathlib(df.to_stata, reader)
        tm.assert_frame_equal(df, result)

    @pytest.mark.parametrize("write_index", [True, False])
    def test_value_labels_iterator(self, write_index, temp_file):
        # GH 16923
        d = {"A": ["B", "E", "C", "A", "E"]}
        df = DataFrame(data=d)
        df["A"] = df["A"].astype("category")
        path = temp_file
        df.to_stata(path, write_index=write_index)

        with read_stata(path, iterator=True) as dta_iter:
            value_labels = dta_iter.value_labels()
        assert value_labels == {"A": {0: "A", 1: "B", 2: "C", 3: "E"}}

    def test_set_index(self, temp_file):
        # GH 17328
        df = DataFrame(
            1.1 * np.arange(120).reshape((30, 4)),
            columns=pd.Index(list("ABCD")),
            index=pd.Index([f"i-{i}" for i in range(30)]),
        )
        df.index.name = "index"
        path = temp_file
        df.to_stata(path)
        reread = read_stata(path, index_col="index")
        tm.assert_frame_equal(df, reread)

    @pytest.mark.parametrize(
        "column", ["ms", "day", "week", "month", "qtr", "half", "yr"]
    )
    def test_date_parsing_ignores_format_details(self, column, datapath):
        # GH 17797
        #
        # Test that display formats are ignored when determining if a numeric
        # column is a date value.
        #
        # All date types are stored as numbers and format associated with the
        # column denotes both the type of the date and the display format.
        #
        # STATA supports 9 date types which each have distinct units. We test 7
        # of the 9 types, ignoring %tC and %tb. %tC is a variant of %tc that
        # accounts for leap seconds and %tb relies on STATAs business calendar.
        df = read_stata(datapath("io", "data", "stata", "stata13_dates.dta"))
        unformatted = df.loc[0, column]
        formatted = df.loc[0, column + "_fmt"]
        assert unformatted == formatted

    @pytest.mark.parametrize("byteorder", ["little", "big"])
    def test_writer_117(self, byteorder, temp_file, using_infer_string):
        original = DataFrame(
            data=[
                [
                    "string",
                    "object",
                    1,
                    1,
                    1,
                    1.1,
                    1.1,
                    np.datetime64("2003-12-25"),
                    "a",
                    "a" * 2045,
                    "a" * 5000,
                    "a",
                ],
                [
                    "string-1",
                    "object-1",
                    1,
                    1,
                    1,
                    1.1,
                    1.1,
                    np.datetime64("2003-12-26"),
                    "b",
                    "b" * 2045,
                    "",
                    "",
                ],
            ],
            columns=[
                "string",
                "object",
                "int8",
                "int16",
                "int32",
                "float32",
                "float64",
                "datetime",
                "s1",
                "s2045",
                "srtl",
                "forced_strl",
            ],
        )
        original["object"] = Series(original["object"], dtype=object)
        original["int8"] = Series(original["int8"], dtype=np.int8)
        original["int16"] = Series(original["int16"], dtype=np.int16)
        original["int32"] = original["int32"].astype(np.int32)
        original["float32"] = Series(original["float32"], dtype=np.float32)
        original.index.name = "index"
        copy = original.copy()
        path = temp_file
        original.to_stata(
            path,
            convert_dates={"datetime": "tc"},
            byteorder=byteorder,
            convert_strl=["forced_strl"],
            version=117,
        )
        written_and_read_again = self.read_dta(path)

        expected = original[:]
        # "tc" for convert_dates means we store with "ms" resolution
        expected["datetime"] = expected["datetime"].astype("M8[ms]")
        if using_infer_string:
            # object dtype (with only strings/None) comes back as string dtype
            expected["object"] = expected["object"].astype("str")

        tm.assert_frame_equal(
            written_and_read_again.set_index("index"),
            expected,
        )
        tm.assert_frame_equal(original, copy)

    def test_convert_strl_name_swap(self, temp_file):
        original = DataFrame(
            [["a" * 3000, "A", "apple"], ["b" * 1000, "B", "banana"]],
            columns=["long1" * 10, "long", 1],
        )
        original.index.name = "index"

        msg = "Not all pandas column names were valid Stata variable names"
        with tm.assert_produces_warning(InvalidColumnName, match=msg):
            path = temp_file
            original.to_stata(path, convert_strl=["long", 1], version=117)
            reread = self.read_dta(path)
            reread = reread.set_index("index")
            reread.columns = original.columns
            tm.assert_frame_equal(reread, original, check_index_type=False)

    def test_invalid_date_conversion(self, temp_file):
        # GH 12259
        dates = [
            dt.datetime(1999, 12, 31, 12, 12, 12, 12000),
            dt.datetime(2012, 12, 21, 12, 21, 12, 21000),
            dt.datetime(1776, 7, 4, 7, 4, 7, 4000),
        ]
        original = DataFrame(
            {
                "nums": [1.0, 2.0, 3.0],
                "strs": ["apple", "banana", "cherry"],
                "dates": dates,
            }
        )

        path = temp_file
        msg = "convert_dates key must be a column or an integer"
        with pytest.raises(ValueError, match=msg):
            original.to_stata(path, convert_dates={"wrong_name": "tc"})

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_nonfile_writing(self, version, temp_file):
        # GH 21041
        bio = io.BytesIO()
        df = DataFrame(
            1.1 * np.arange(120).reshape((30, 4)),
            columns=pd.Index(list("ABCD")),
            index=pd.Index([f"i-{i}" for i in range(30)]),
        )
        df.index.name = "index"
        path = temp_file
        df.to_stata(bio, version=version)
        bio.seek(0)
        with open(path, "wb") as dta:
            dta.write(bio.read())
        reread = read_stata(path, index_col="index")
        tm.assert_frame_equal(df, reread)

    def test_gzip_writing(self, temp_file):
        # writing version 117 requires seek and cannot be used with gzip
        df = DataFrame(
            1.1 * np.arange(120).reshape((30, 4)),
            columns=pd.Index(list("ABCD")),
            index=pd.Index([f"i-{i}" for i in range(30)]),
        )
        df.index.name = "index"
        path = temp_file
        with gzip.GzipFile(path, "wb") as gz:
            df.to_stata(gz, version=114)
        with gzip.GzipFile(path, "rb") as gz:
            reread = read_stata(gz, index_col="index")
        tm.assert_frame_equal(df, reread)

    # 117 is not included in this list as it uses ASCII strings
    @pytest.mark.parametrize(
        "file",
        [
            "stata16_118",
            "stata16_be_118",
            "stata16_119",
            "stata16_be_119",
        ],
    )
    def test_unicode_dta_118_119(self, file, datapath):
        unicode_df = self.read_dta(datapath("io", "data", "stata", f"{file}.dta"))

        columns = ["utf8", "latin1", "ascii", "utf8_strl", "ascii_strl"]
        values = [
            ["ραηδας", "PÄNDÄS", "p", "ραηδας", "p"],
            ["ƤĀńĐąŜ", "Ö", "a", "ƤĀńĐąŜ", "a"],
            ["ᴘᴀᴎᴅᴀS", "Ü", "n", "ᴘᴀᴎᴅᴀS", "n"],
            ["      ", "      ", "d", "      ", "d"],
            [" ", "", "a", " ", "a"],
            ["", "", "s", "", "s"],
            ["", "", " ", "", " "],
        ]
        expected = DataFrame(values, columns=columns)

        tm.assert_frame_equal(unicode_df, expected)

    def test_mixed_string_strl(self, temp_file, using_infer_string):
        # GH 23633
        output = [{"mixed": "string" * 500, "number": 0}, {"mixed": None, "number": 1}]
        output = DataFrame(output)
        output.number = output.number.astype("int32")

        path = temp_file
        output.to_stata(path, write_index=False, version=117)
        reread = read_stata(path)
        expected = output.fillna("")
        tm.assert_frame_equal(reread, expected)

        # Check strl supports all None (null)
        output["mixed"] = None
        output.to_stata(path, write_index=False, convert_strl=["mixed"], version=117)
        reread = read_stata(path)
        expected = output.fillna("")
        if using_infer_string:
            expected["mixed"] = expected["mixed"].astype("str")
        tm.assert_frame_equal(reread, expected)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_all_none_exception(self, version, temp_file):
        output = [{"none": "none", "number": 0}, {"none": None, "number": 1}]
        output = DataFrame(output)
        output["none"] = None
        with pytest.raises(ValueError, match="Column `none` cannot be exported"):
            output.to_stata(temp_file, version=version)

    @pytest.mark.parametrize("version", [114, 117, 118, 119, None])
    def test_invalid_file_not_written(self, version, temp_file):
        content = "Here is one __�__ Another one __·__ Another one __½__"
        df = DataFrame([content], columns=["invalid"])
        msg1 = (
            r"'latin-1' codec can't encode character '\\ufffd' "
            r"in position 14: ordinal not in range\(256\)"
        )
        msg2 = (
            "'ascii' codec can't decode byte 0xef in position 14: "
            r"ordinal not in range\(128\)"
        )
        with pytest.raises(UnicodeEncodeError, match=f"{msg1}|{msg2}"):
            df.to_stata(temp_file)

    def test_strl_latin1(self, temp_file):
        # GH 23573, correct GSO data to reflect correct size
        output = DataFrame(
            [["pandas"] * 2, ["þâÑÐÅ§"] * 2], columns=["var_str", "var_strl"]
        )

        output.to_stata(temp_file, version=117, convert_strl=["var_strl"])
        with open(temp_file, "rb") as reread:
            content = reread.read()
            expected = "þâÑÐÅ§"
            assert expected.encode("latin-1") in content
            assert expected.encode("utf-8") in content
            gsos = content.split(b"strls")[1][1:-2]
            for gso in gsos.split(b"GSO")[1:]:
                val = gso.split(b"\x00")[-2]
                size = gso[gso.find(b"\x82") + 1]
                assert len(val) == size - 1

    def test_encoding_latin1_118(self, datapath):
        # GH 25960
        msg = """
One or more strings in the dta file could not be decoded using utf-8, and
so the fallback encoding of latin-1 is being used.  This can happen when a file
has been incorrectly encoded by Stata or some other software. You should verify
the string values returned are correct."""
        # Move path outside of read_stata, or else assert_produces_warning
        # will block pytests skip mechanism from triggering (failing the test)
        # if the path is not present
        path = datapath("io", "data", "stata", "stata1_encoding_118.dta")
        with tm.assert_produces_warning(UnicodeWarning, filter_level="once") as w:
            encoded = read_stata(path)
            # with filter_level="always", produces 151 warnings which can be slow
            assert len(w) == 1
            assert w[0].message.args[0] == msg

        expected = DataFrame([["Düsseldorf"]] * 151, columns=["kreis1849"])
        tm.assert_frame_equal(encoded, expected)

    @pytest.mark.slow
    def test_stata_119(self, datapath):
        # Gzipped since contains 32,999 variables and uncompressed is 20MiB
        # Just validate that the reader reports correct number of variables
        # to avoid high peak memory
        with gzip.open(
            datapath("io", "data", "stata", "stata1_119.dta.gz"), "rb"
        ) as gz:
            with StataReader(gz) as reader:
                reader._ensure_open()
                assert reader._nvar == 32999

    @pytest.mark.parametrize("version", [118, 119, None])
    @pytest.mark.parametrize("byteorder", ["little", "big"])
    def test_utf8_writer(self, version, byteorder, temp_file):
        cat = pd.Categorical(["a", "β", "ĉ"], ordered=True)
        data = DataFrame(
            [
                [1.0, 1, "ᴬ", "ᴀ relatively long ŝtring"],
                [2.0, 2, "ᴮ", ""],
                [3.0, 3, "ᴰ", None],
            ],
            columns=["Å", "β", "ĉ", "strls"],
        )
        data["ᴐᴬᵀ"] = cat
        variable_labels = {
            "Å": "apple",
            "β": "ᵈᵉᵊ",
            "ĉ": "ᴎტჄႲႳႴႶႺ",
            "strls": "Long Strings",
            "ᴐᴬᵀ": "",
        }
        data_label = "ᴅaᵀa-label"
        value_labels = {"β": {1: "label", 2: "æøå", 3: "ŋot valid latin-1"}}
        data["β"] = data["β"].astype(np.int32)
        writer = StataWriterUTF8(
            temp_file,
            data,
            data_label=data_label,
            convert_strl=["strls"],
            variable_labels=variable_labels,
            write_index=False,
            byteorder=byteorder,
            version=version,
            value_labels=value_labels,
        )
        writer.write_file()
        reread_encoded = read_stata(temp_file)
        # Missing is intentionally converted to empty strl
        data["strls"] = data["strls"].fillna("")
        # Variable with value labels is reread as categorical
        data["β"] = (
            data["β"].replace(value_labels["β"]).astype("category").cat.as_ordered()
        )
        tm.assert_frame_equal(data, reread_encoded)
        with StataReader(temp_file) as reader:
            assert reader.data_label == data_label
            assert reader.variable_labels() == variable_labels

        data.to_stata(temp_file, version=version, write_index=False)
        reread_to_stata = read_stata(temp_file)
        tm.assert_frame_equal(data, reread_to_stata)

    def test_writer_118_exceptions(self, temp_file):
        df = DataFrame(np.zeros((1, 33000), dtype=np.int8))
        with pytest.raises(ValueError, match="version must be either 118 or 119."):
            StataWriterUTF8(temp_file, df, version=117)
        with pytest.raises(ValueError, match="You must use version 119"):
            StataWriterUTF8(temp_file, df, version=118)

    @pytest.mark.parametrize(
        "dtype_backend",
        ["numpy_nullable", pytest.param("pyarrow", marks=td.skip_if_no("pyarrow"))],
    )
    def test_read_write_ea_dtypes(self, dtype_backend, temp_file, tmp_path):
        dtype = "Int64" if dtype_backend == "numpy_nullable" else "int64[pyarrow]"
        df = DataFrame(
            {
                "a": pd.array([1, 2, None], dtype=dtype),
                "b": ["a", "b", "c"],
                "c": [True, False, None],
                "d": [1.5, 2.5, 3.5],
                "e": pd.date_range("2020-12-31", periods=3, freq="D"),
            },
            index=pd.Index([0, 1, 2], name="index"),
        )
        df = df.convert_dtypes(dtype_backend=dtype_backend)
        stata_path = tmp_path / "test_stata.dta"
        df.to_stata(stata_path, version=118)

        df.to_stata(temp_file)
        written_and_read_again = self.read_dta(temp_file)

        expected = DataFrame(
            {
                "a": [1, 2, np.nan],
                "b": ["a", "b", "c"],
                "c": [1.0, 0, np.nan],
                "d": [1.5, 2.5, 3.5],
                # stata stores with ms unit, so unit does not round-trip exactly
                "e": pd.date_range("2020-12-31", periods=3, freq="D", unit="ms"),
            },
            index=pd.RangeIndex(range(3), name="index"),
        )

        tm.assert_frame_equal(written_and_read_again.set_index("index"), expected)

    @pytest.mark.parametrize("version", [113, 114, 115, 117, 118, 119])
    def test_read_data_int_validranges(self, version, datapath):
        expected = DataFrame(
            {
                "byte": np.array([-127, 100], dtype=np.int8),
                "int": np.array([-32767, 32740], dtype=np.int16),
                "long": np.array([-2147483647, 2147483620], dtype=np.int32),
            }
        )

        parsed = read_stata(
            datapath("io", "data", "stata", f"stata_int_validranges_{version}.dta")
        )
        tm.assert_frame_equal(parsed, expected)

    @pytest.mark.parametrize("version", [104, 105, 108, 110, 111])
    def test_read_data_int_validranges_compat(self, version, datapath):
        expected = DataFrame(
            {
                "byte": np.array([-128, 126], dtype=np.int8),
                "int": np.array([-32768, 32766], dtype=np.int16),
                "long": np.array([-2147483648, 2147483646], dtype=np.int32),
            }
        )

        parsed = read_stata(
            datapath("io", "data", "stata", f"stata_int_validranges_{version}.dta")
        )
        tm.assert_frame_equal(parsed, expected)

    # The byte type was not supported prior to the 104 format
    @pytest.mark.parametrize("version", [102, 103])
    def test_read_data_int_validranges_compat_nobyte(self, version, datapath):
        expected = DataFrame(
            {
                "byte": np.array([-128, 126], dtype=np.int16),
                "int": np.array([-32768, 32766], dtype=np.int16),
                "long": np.array([-2147483648, 2147483646], dtype=np.int32),
            }
        )

        parsed = read_stata(
            datapath("io", "data", "stata", f"stata_int_validranges_{version}.dta")
        )
        tm.assert_frame_equal(parsed, expected)


@pytest.mark.parametrize("version", [105, 108, 110, 111, 113, 114])
def test_backward_compat(version, datapath):
    data_base = datapath("io", "data", "stata")
    ref = os.path.join(data_base, "stata-compat-118.dta")
    old = os.path.join(data_base, f"stata-compat-{version}.dta")
    expected = read_stata(ref)
    old_dta = read_stata(old)
    tm.assert_frame_equal(old_dta, expected, check_dtype=False)


@pytest.mark.parametrize("version", [103, 104])
def test_backward_compat_nodateconversion(version, datapath):
    # The Stata data format prior to 105 did not support a date format
    # so read the raw values for comparison
    data_base = datapath("io", "data", "stata")
    ref = os.path.join(data_base, "stata-compat-118.dta")
    old = os.path.join(data_base, f"stata-compat-{version}.dta")
    expected = read_stata(ref, convert_dates=False)
    old_dta = read_stata(old, convert_dates=False)
    tm.assert_frame_equal(old_dta, expected, check_dtype=False)


@pytest.mark.parametrize("version", [102])
def test_backward_compat_nostring(version, datapath):
    # The Stata data format prior to 105 did not support a date format
    # so read the raw values for comparison
    ref = datapath("io", "data", "stata", "stata-compat-118.dta")
    old = datapath("io", "data", "stata", f"stata-compat-{version}.dta")
    expected = read_stata(ref, convert_dates=False)
    # The Stata data format prior to 103 did not support string data
    expected = expected.drop(columns=["s10"])
    old_dta = read_stata(old, convert_dates=False)
    tm.assert_frame_equal(old_dta, expected, check_dtype=False)


@pytest.mark.parametrize("version", [105, 108, 110, 111, 113, 114, 118])
def test_bigendian(version, datapath):
    ref = datapath("io", "data", "stata", f"stata-compat-{version}.dta")
    big = datapath("io", "data", "stata", f"stata-compat-be-{version}.dta")
    expected = read_stata(ref)
    big_dta = read_stata(big)
    tm.assert_frame_equal(big_dta, expected)


# Note: 102 format does not support big-endian byte order
@pytest.mark.parametrize("version", [103, 104])
def test_bigendian_nodateconversion(version, datapath):
    # The Stata data format prior to 105 did not support a date format
    # so read the raw values for comparison
    ref = datapath("io", "data", "stata", f"stata-compat-{version}.dta")
    big = datapath("io", "data", "stata", f"stata-compat-be-{version}.dta")
    expected = read_stata(ref, convert_dates=False)
    big_dta = read_stata(big, convert_dates=False)
    tm.assert_frame_equal(big_dta, expected)


def test_direct_read(datapath, monkeypatch):
    file_path = datapath("io", "data", "stata", "stata-compat-118.dta")

    # Test that opening a file path doesn't buffer the file.
    with StataReader(file_path) as reader:
        # Must not have been buffered to memory
        assert not reader.read().empty
        assert not isinstance(reader._path_or_buf, io.BytesIO)

    # Test that we use a given fp exactly, if possible.
    with open(file_path, "rb") as fp:
        with StataReader(fp) as reader:
            assert not reader.read().empty
            assert reader._path_or_buf is fp

    # Test that we use a given BytesIO exactly, if possible.
    with open(file_path, "rb") as fp:
        with io.BytesIO(fp.read()) as bio:
            with StataReader(bio) as reader:
                assert not reader.read().empty
                assert reader._path_or_buf is bio


@pytest.mark.parametrize("version", [114, 117, 118, 119, None])
@pytest.mark.parametrize("use_dict", [True, False])
@pytest.mark.parametrize("infer", [True, False])
def test_compression(
    compression, version, use_dict, infer, compression_to_extension, tmp_path
):
    file_name = "dta_inferred_compression.dta"
    if compression:
        if use_dict:
            file_ext = compression
        else:
            file_ext = compression_to_extension[compression]
        file_name += f".{file_ext}"
    compression_arg = compression
    if infer:
        compression_arg = "infer"
    if use_dict:
        compression_arg = {"method": compression}

    df = DataFrame(
        np.random.default_rng(2).standard_normal((10, 2)), columns=list("AB")
    )
    df.index.name = "index"
    path = tmp_path / file_name
    path.touch()
    df.to_stata(path, version=version, compression=compression_arg)
    if compression == "gzip":
        with gzip.open(path, "rb") as comp:
            fp = io.BytesIO(comp.read())
    elif compression == "zip":
        with zipfile.ZipFile(path, "r") as comp:
            fp = io.BytesIO(comp.read(comp.filelist[0]))
    elif compression == "tar":
        with tarfile.open(path) as tar:
            fp = io.BytesIO(tar.extractfile(tar.getnames()[0]).read())
    elif compression == "bz2":
        with bz2.open(path, "rb") as comp:
            fp = io.BytesIO(comp.read())
    elif compression == "zstd":
        zstd = pytest.importorskip("zstandard")
        with zstd.open(path, "rb") as comp:
            fp = io.BytesIO(comp.read())
    elif compression == "xz":
        lzma = pytest.importorskip("lzma")
        with lzma.open(path, "rb") as comp:
            fp = io.BytesIO(comp.read())
    elif compression is None:
        fp = path
    reread = read_stata(fp, index_col="index")

    expected = df
    tm.assert_frame_equal(reread, expected)


@pytest.mark.parametrize("method", ["zip", "infer"])
@pytest.mark.parametrize("file_ext", [None, "dta", "zip"])
def test_compression_dict(method, file_ext, tmp_path):
    file_name = f"test.{file_ext}"
    archive_name = "test.dta"
    df = DataFrame(
        np.random.default_rng(2).standard_normal((10, 2)), columns=list("AB")
    )
    df.index.name = "index"
    compression = {"method": method, "archive_name": archive_name}
    path = tmp_path / file_name
    path.touch()
    df.to_stata(path, compression=compression)
    if method == "zip" or file_ext == "zip":
        with zipfile.ZipFile(path, "r") as zp:
            assert len(zp.filelist) == 1
            assert zp.filelist[0].filename == archive_name
            fp = io.BytesIO(zp.read(zp.filelist[0]))
    else:
        fp = path
    reread = read_stata(fp, index_col="index")

    expected = df
    tm.assert_frame_equal(reread, expected)


@pytest.mark.parametrize("version", [114, 117, 118, 119, None])
def test_chunked_categorical(version, temp_file):
    df = DataFrame({"cats": Series(["a", "b", "a", "b", "c"], dtype="category")})
    df.index.name = "index"

    expected = df.copy()

    df.to_stata(temp_file, version=version)
    with StataReader(temp_file, chunksize=2, order_categoricals=False) as reader:
        for i, block in enumerate(reader):
            block = block.set_index("index")
            assert "cats" in block
            tm.assert_series_equal(
                block.cats,
                expected.cats.iloc[2 * i : 2 * (i + 1)],
                check_index_type=len(block) > 1,
            )


def test_chunked_categorical_partial(datapath):
    dta_file = datapath("io", "data", "stata", "stata-dta-partially-labeled.dta")
    values = ["a", "b", "a", "b", 3.0]
    msg = "series with value labels are not fully labeled"
    with StataReader(dta_file, chunksize=2) as reader:
        with tm.assert_produces_warning(CategoricalConversionWarning, match=msg):
            for i, block in enumerate(reader):
                assert list(block.cats) == values[2 * i : 2 * (i + 1)]
                if i < 2:
                    idx = pd.Index(["a", "b"])
                else:
                    idx = pd.Index([3.0], dtype="float64")
                tm.assert_index_equal(block.cats.cat.categories, idx)
    with tm.assert_produces_warning(CategoricalConversionWarning, match=msg):
        with StataReader(dta_file, chunksize=5) as reader:
            large_chunk = reader.__next__()
    direct = read_stata(dta_file)
    tm.assert_frame_equal(direct, large_chunk)


@pytest.mark.parametrize("chunksize", (-1, 0, "apple"))
def test_iterator_errors(datapath, chunksize):
    dta_file = datapath("io", "data", "stata", "stata-dta-partially-labeled.dta")
    with pytest.raises(ValueError, match="chunksize must be a positive"):
        with StataReader(dta_file, chunksize=chunksize):
            pass


def test_iterator_value_labels(temp_file):
    # GH 31544
    values = ["c_label", "b_label"] + ["a_label"] * 500
    df = DataFrame({f"col{k}": pd.Categorical(values, ordered=True) for k in range(2)})
    df.to_stata(temp_file, write_index=False)
    expected = pd.Index(["a_label", "b_label", "c_label"])
    with read_stata(temp_file, chunksize=100) as reader:
        for j, chunk in enumerate(reader):
            for i in range(2):
                tm.assert_index_equal(chunk.dtypes.iloc[i].categories, expected)
            tm.assert_frame_equal(chunk, df.iloc[j * 100 : (j + 1) * 100])


def test_precision_loss(temp_file):
    df = DataFrame(
        [[sum(2**i for i in range(60)), sum(2**i for i in range(52))]],
        columns=["big", "little"],
    )
    with tm.assert_produces_warning(
        PossiblePrecisionLoss, match="Column converted from int64 to float64"
    ):
        df.to_stata(temp_file, write_index=False)
    reread = read_stata(temp_file)
    expected_dt = Series([np.float64, np.float64], index=["big", "little"])
    tm.assert_series_equal(reread.dtypes, expected_dt)
    assert reread.loc[0, "little"] == df.loc[0, "little"]
    assert reread.loc[0, "big"] == float(df.loc[0, "big"])


def test_compression_roundtrip(compression, temp_file):
    df = DataFrame(
        [[0.123456, 0.234567, 0.567567], [12.32112, 123123.2, 321321.2]],
        index=["A", "B"],
        columns=["X", "Y", "Z"],
    )
    df.index.name = "index"

    df.to_stata(temp_file, compression=compression)
    reread = read_stata(temp_file, compression=compression, index_col="index")
    tm.assert_frame_equal(df, reread)

    # explicitly ensure file was compressed.
    with tm.decompress_file(temp_file, compression) as fh:
        contents = io.BytesIO(fh.read())
    reread = read_stata(contents, index_col="index")
    tm.assert_frame_equal(df, reread)


@pytest.mark.parametrize("to_infer", [True, False])
@pytest.mark.parametrize("read_infer", [True, False])
def test_stata_compression(
    compression_only, read_infer, to_infer, compression_to_extension, tmp_path
):
    compression = compression_only

    ext = compression_to_extension[compression]
    filename = f"test.{ext}"

    df = DataFrame(
        [[0.123456, 0.234567, 0.567567], [12.32112, 123123.2, 321321.2]],
        index=["A", "B"],
        columns=["X", "Y", "Z"],
    )
    df.index.name = "index"

    to_compression = "infer" if to_infer else compression
    read_compression = "infer" if read_infer else compression

    path = tmp_path / filename
    path.touch()
    df.to_stata(path, compression=to_compression)
    result = read_stata(path, compression=read_compression, index_col="index")
    tm.assert_frame_equal(result, df)


def test_non_categorical_value_labels(temp_file):
    data = DataFrame(
        {
            "fully_labelled": [1, 2, 3, 3, 1],
            "partially_labelled": [1.0, 2.0, np.nan, 9.0, np.nan],
            "Y": [7, 7, 9, 8, 10],
            "Z": pd.Categorical(["j", "k", "l", "k", "j"]),
        }
    )

    path = temp_file
    value_labels = {
        "fully_labelled": {1: "one", 2: "two", 3: "three"},
        "partially_labelled": {1.0: "one", 2.0: "two"},
    }
    expected = {**value_labels, "Z": {0: "j", 1: "k", 2: "l"}}

    writer = StataWriter(path, data, value_labels=value_labels)
    writer.write_file()

    with StataReader(path) as reader:
        reader_value_labels = reader.value_labels()
        assert reader_value_labels == expected

    msg = "Can't create value labels for notY, it wasn't found in the dataset."
    value_labels = {"notY": {7: "label1", 8: "label2"}}
    with pytest.raises(KeyError, match=msg):
        StataWriter(path, data, value_labels=value_labels)

    msg = (
        "Can't create value labels for Z, value labels "
        "can only be applied to numeric columns."
    )
    value_labels = {"Z": {1: "a", 2: "k", 3: "j", 4: "i"}}
    with pytest.raises(ValueError, match=msg):
        StataWriter(path, data, value_labels=value_labels)


def test_non_categorical_value_label_name_conversion(temp_file):
    # Check conversion of invalid variable names
    data = DataFrame(
        {
            "invalid~!": [1, 1, 2, 3, 5, 8],  # Only alphanumeric and _
            "6_invalid": [1, 1, 2, 3, 5, 8],  # Must start with letter or _
            "invalid_name_longer_than_32_characters": [8, 8, 9, 9, 8, 8],  # Too long
            "aggregate": [2, 5, 5, 6, 6, 9],  # Reserved words
            (1, 2): [1, 2, 3, 4, 5, 6],  # Hashable non-string
        }
    )

    value_labels = {
        "invalid~!": {1: "label1", 2: "label2"},
        "6_invalid": {1: "label1", 2: "label2"},
        "invalid_name_longer_than_32_characters": {8: "eight", 9: "nine"},
        "aggregate": {5: "five"},
        (1, 2): {3: "three"},
    }

    expected = {
        "invalid__": {1: "label1", 2: "label2"},
        "_6_invalid": {1: "label1", 2: "label2"},
        "invalid_name_longer_than_32_char": {8: "eight", 9: "nine"},
        "_aggregate": {5: "five"},
        "_1__2_": {3: "three"},
    }

    msg = "Not all pandas column names were valid Stata variable names"
    with tm.assert_produces_warning(InvalidColumnName, match=msg):
        data.to_stata(temp_file, value_labels=value_labels)

    with StataReader(temp_file) as reader:
        reader_value_labels = reader.value_labels()
        assert reader_value_labels == expected


def test_non_categorical_value_label_convert_categoricals_error(temp_file):
    # Mapping more than one value to the same label is valid for Stata
    # labels, but can't be read with convert_categoricals=True
    value_labels = {
        "repeated_labels": {10: "Ten", 20: "More than ten", 40: "More than ten"}
    }

    data = DataFrame(
        {
            "repeated_labels": [10, 10, 20, 20, 40, 40],
        }
    )

    data.to_stata(temp_file, value_labels=value_labels)

    with StataReader(temp_file, convert_categoricals=False) as reader:
        reader_value_labels = reader.value_labels()
    assert reader_value_labels == value_labels

    col = "repeated_labels"
    repeats = "-" * 80 + "\n" + "\n".join(["More than ten"])

    msg = f"""
Value labels for column {col} are not unique. These cannot be converted to
pandas categoricals.

Either read the file with `convert_categoricals` set to False or use the
low level interface in `StataReader` to separately read the values and the
value_labels.

The repeated labels are:
{repeats}
"""
    with pytest.raises(ValueError, match=msg):
        read_stata(temp_file, convert_categoricals=True)


@pytest.mark.parametrize("version", [114, 117, 118, 119, None])
@pytest.mark.parametrize(
    "dtype",
    [
        pd.BooleanDtype,
        pd.Int8Dtype,
        pd.Int16Dtype,
        pd.Int32Dtype,
        pd.Int64Dtype,
        pd.UInt8Dtype,
        pd.UInt16Dtype,
        pd.UInt32Dtype,
        pd.UInt64Dtype,
    ],
)
def test_nullable_support(dtype, version, temp_file):
    df = DataFrame(
        {
            "a": Series([1.0, 2.0, 3.0]),
            "b": Series([1, pd.NA, pd.NA], dtype=dtype.name),
            "c": Series(["a", "b", None]),
        }
    )
    dtype_name = df.b.dtype.numpy_dtype.name
    # Only use supported names: no uint, bool or int64
    dtype_name = dtype_name.replace("u", "")
    if dtype_name == "int64":
        dtype_name = "int32"
    elif dtype_name == "bool":
        dtype_name = "int8"
    value = StataMissingValue.BASE_MISSING_VALUES[dtype_name]
    smv = StataMissingValue(value)
    expected_b = Series([1, smv, smv], dtype=object, name="b")
    expected_c = Series(["a", "b", ""], name="c")
    df.to_stata(temp_file, write_index=False, version=version)
    reread = read_stata(temp_file, convert_missing=True)
    tm.assert_series_equal(df.a, reread.a)
    tm.assert_series_equal(reread.b, expected_b)
    tm.assert_series_equal(reread.c, expected_c)


def test_empty_frame(temp_file):
    # GH 46240
    # create an empty DataFrame with int64 and float64 dtypes
    df = DataFrame(data={"a": range(3), "b": [1.0, 2.0, 3.0]}).head(0)
    path = temp_file
    df.to_stata(path, write_index=False, version=117)
    # Read entire dataframe
    df2 = read_stata(path)
    assert "b" in df2
    # Dtypes don't match since no support for int32
    dtypes = Series({"a": np.dtype("int32"), "b": np.dtype("float64")})
    tm.assert_series_equal(df2.dtypes, dtypes)
    # read one column of empty .dta file
    df3 = read_stata(path, columns=["a"])
    assert "b" not in df3
    tm.assert_series_equal(df3.dtypes, dtypes.loc[["a"]])


@pytest.mark.parametrize("version", [114, 117, 118, 119, None])
def test_many_strl(temp_file, version):
    n = 65534
    df = DataFrame(np.arange(n), columns=["col"])
    lbls = ["".join(v) for v in itertools.product(*([string.ascii_letters] * 3))]
    value_labels = {"col": {i: lbls[i] for i in range(n)}}
    df.to_stata(temp_file, value_labels=value_labels, version=version)


@pytest.mark.parametrize("version", [117, 118, 119, None])
def test_strl_missings(temp_file, version):
    # GH 23633
    # Check that strl supports None and pd.NA
    df = DataFrame(
        [
            {"str1": "string" * 500, "number": 0},
            {"str1": None, "number": 1},
            {"str1": pd.NA, "number": 1},
        ]
    )
    df.to_stata(temp_file, version=version)


@pytest.mark.parametrize("version", [117, 118, 119, None])
def test_ascii_error(temp_file, version):
    # GH #61583
    # Check that 2 byte long unicode characters doesn't cause export error
    df = DataFrame({"doubleByteCol": ["§" * 1500]})
    df.to_stata(temp_file, write_index=0, version=version)
    df_input = read_stata(temp_file)
    tm.assert_frame_equal(df, df_input)
